Hydrologic and geomorphic controls on hyporheic exchange during base flow recession in a headwater mountain stream
about
The emergence of hydrogeophysics for improved understanding of subsurface processes over multiple scalesFocused groundwater controlled feedbacks into the hyporheic zone during baseflow recession.Temporal Hyporheic Zone Response to Water Table Fluctuations.A Comparison of Hyporheic Transport at a Cross-Vane Structure and Natural Riffle.Combined use of thermal methods and seepage meters to efficiently locate, quantify, and monitor focused groundwater discharge to a sand-bed streamMultiscale geophysical imaging of the critical zoneElectrical resistivity dynamics beneath a fractured sedimentary bedrock riverbed in response to temperature and groundwater–surface water exchangeTemporal responses of groundwater-surface water exchange to successive storm eventsHydrologic controls on hyporheic exchange in a headwater mountain streamDynamic hyporheic and riparian flow path geometry through base flow recession in two headwater mountain stream corridorsHyporheic exchange controlled by dynamic hydrologic boundary conditionsStream solute tracer timescales changing with discharge and reach length confound process interpretationHydrogeomorphic controls on hyporheic and riparian transport in two headwater mountain streams during base flow recessionThe influence of spatially variable stream hydraulics on reach scale transient storage modelingHow does reach-scale stream-hyporheic transport vary with discharge? Insights from rSAS analysis of sequential tracer injections in a headwater mountain streamRiparian hydraulic gradient and stream-groundwater exchange dynamics in steep headwater valleysSolutions for the diurnally forced advection-diffusion equation to estimate bulk fluid velocity and diffusivity in streambeds from temperature time seriesQuantifying the Spatial Variations of Hyporheic Water Exchange at Catchment Scale Using the Thermal Method: A Case Study in the Weihe River, China
P2860
Q26768627-BAE500DA-3EB4-4D27-A180-BA22DD3EF143Q46912144-84A1EDCC-7EE9-4008-906A-D44525C9ADACQ51349471-2F64C415-CFC3-47E2-90E9-2F3C51BE0CD0Q51393246-2B47A3D1-C731-4DC0-A2C1-3AAC985FB633Q57411833-A22CC2D1-588A-4727-8B82-8BBAC060B382Q57854047-38886D54-B825-4C1C-BCF0-5F210DB65B1EQ57865772-07394488-4B79-40D2-B1E5-3088F9E24850Q57877193-C881D469-85BF-46B1-BC2F-AE47CF8FDDB7Q57902106-3C8737CD-90A5-48C9-B4AF-04CB01352479Q57902112-5762BDE8-D990-4DEB-BE68-705AD42151EAQ57902120-71F5CA7A-47E7-4DAF-A027-892C073F05B6Q57902126-134ED03B-E826-4C24-BB15-674CA1E92B71Q57902132-D91B42A3-E643-4043-9CF2-1F93C5BE3379Q57902147-8A8A5151-FC84-4038-95AA-9CDF96293C6EQ58006302-FEA0E570-AA1D-4EBE-8E61-74BF4A2EF3FEQ58213766-49B1ED19-DF02-41F7-8E7A-BC9FD5399303Q58253670-AAB59694-D5C9-4D3B-B225-97E737BAFF75Q59142301-B1E394AF-FDA8-48D5-95EB-328A5C668EDF
P2860
Hydrologic and geomorphic controls on hyporheic exchange during base flow recession in a headwater mountain stream
description
im April 2012 veröffentlichter wissenschaftlicher Artikel
@de
wetenschappelijk artikel
@nl
наукова стаття, опублікована у квітні 2012
@uk
name
Hydrologic and geomorphic cont ...... in a headwater mountain stream
@en
Hydrologic and geomorphic cont ...... in a headwater mountain stream
@nl
type
label
Hydrologic and geomorphic cont ...... in a headwater mountain stream
@en
Hydrologic and geomorphic cont ...... in a headwater mountain stream
@nl
prefLabel
Hydrologic and geomorphic cont ...... in a headwater mountain stream
@en
Hydrologic and geomorphic cont ...... in a headwater mountain stream
@nl
P2093
P2860
P356
P1476
Hydrologic and geomorphic cont ...... in a headwater mountain stream
@en
P2093
Adam S. Ward
Andrew M. Binley
Kamini Singha
Michael Fitzgerald
Michael N. Gooseff
Thomas J. Voltz
P2860
P356
10.1029/2011WR011461
P577
2012-04-01T00:00:00Z